参数资料
| 型号: | LT1977IFE#TRPBF |
| 厂商: | Linear Technology |
| 文件页数: | 9/24页 |
| 文件大小: | 0K |
| 描述: | IC REG BUCK ADJ 1.5A 16TSSOP |
| 标准包装: | 2,500 |
| 类型: | 降压(降压) |
| 输出类型: | 可调式 |
| 输出数: | 1 |
| 输出电压: | 1.2 V ~ 54 V |
| 输入电压: | 3.3 V ~ 60 V |
| PWM 型: | 电流模式,混合 |
| 频率 - 开关: | 500kHz |
| 电流 - 输出: | 1.5A |
| 同步整流器: | 无 |
| 工作温度: | -40°C ~ 125°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 16-TSSOP(0.173",4.40mm)裸露焊盘 |
| 包装: | 带卷 (TR) |
| 供应商设备封装: | 16-TSSOP-EP |
��
�
�LT1977�
�BLOCK� DIAGRA�
�power� from� the� V� IN� pin,� but� if� the� BIAS� pin� is� connected� to�
�an� external� voltage� higher� than� 3V� bias� power� will� be�
�drawn� from� the� external� source� (typically� the� regulated�
�output� voltage).� This� improves� efficiency.�
�High� switch� efficiency� is� achieved� by� using� the� BOOST� pin�
�to� provide� a� voltage� to� the� switch� driver� which� is� higher�
�than� the� input� voltage,� allowing� switch� to� be� saturated.�
�This� boosted� voltage� is� generated� with� an� external� capaci-�
�tor� and� diode.�
�APPLICATIO� S� I� FOR� ATIO�
�CHOOSING� THE� LT1976� OR� LT1977�
�The� LT1976� and� LT1977� are� both� high� voltage� 1.5A� step-�
�down� Burst� Mode� switching� regulators� with� a� typical�
�quiescent� current� of� 100� μ� A.� The� difference� between� the�
�To� further� optimize� efficiency,� the� LT1977� automatically�
�switches� to� Burst� Mode� operation� in� light� load� situations.�
�In� Burst� Mode� operation,� all� circuitry� associated� with�
�controlling� the� output� switch� is� shut� down� reducing� the�
�input� supply� current� to� 45� μ� A.�
�The� LT1977� contains� a� power� good� flag� with� a� program-�
�mable� threshold� and� delay� time.� A� logic-level� low� on� the�
�SHDN� pin� disables� the� IC� and� reduces� input� suppy� current�
�to� less� than� 1� μ� A.�
�the� LT1977’s� input� range� will� be� similar� to� the� LT1976.�
�Lowering� the� input� voltage� below� the� maximum� duty� cycle�
�limitation� will� cause� a� dropout� in� regulation.�
�Table� 1.� LT1976/LT1977� Comparison�
�two� is� that� the� fixed� switching� frequency� of� the� LT1976� is�
�200kHz� versus� 500kHz� for� the� LT1977.� The� switching�
�frequency� affects:� inductor� size,� input� voltage� range� in�
�continuous� mode� operation,� efficiency,� thermal� loss� and�
�EMI.�
�OUTPUT� RIPPLE� AND� INDUCTOR� SIZE�
�Output� ripple� current� is� determined� by� the� input� to� output�
�voltage� ratio,� inductor� value� and� switch� frequency.� Since�
�PARAMETER�
�Minimum� Duty� Cycle�
�Maximum� Duty� Cycle�
�Inductor� Size�
�Output� Capacitor� Size�
�Efficiency�
�EMI�
�Input� Range�
�Output� Ripple�
�ADVANTAGE�
�LT1976�
�LT1976�
�LT1977�
�LT1977�
�LT1976�
�LT1976�
�LT1976�
�LT1977�
�the� switch� frequency� of� the� LT1977� is� 2.5� times� greater�
�than� that� of� the� LT1976,� the� inductance� used� in� the� LT1977�
�application� can� be� 2.5� times� lower� than� the� LT1976� while�
�maintaining� the� same� output� ripple� current.� The� lower�
�value� used� in� the� LT1977� application� allows� the� use� of� a�
�physically� smaller� inductor.�
�INPUT� VOLTAGE� RANGE�
�The� LT1976� and� LT1977� minimum� on� and� off� times� are�
�equivalent.� This� results� in� a� narrower� range� of� continuous�
�mode� operation� for� the� LT1977.� Typical� minimum� and�
�maximum� duty� cycles� are� 6%� to� 95%� for� the� LT1976� and�
�15%� to� 90%� for� the� LT1977.� Both� parts� will� regulate� up� to�
�an� input� voltage� of� 60V� but� the� LT1977� will� transistion� into�
�pulse� skipping/Burst� Mode� operation� when� the� input�
�voltage� is� above� 30V� for� a� 5V� output.� At� outputs� above� 10V�
�FEEDBACK� PIN� FUNCTIONS�
�The� feedback� (FB)� pin� on� the� LT1977� is� used� to� set� output�
�voltage� and� provide� several� overload� protection� features.�
�The� first� part� of� this� section� deals� with� selecting� resistors�
�to� set� output� voltage� and� the� remaining� part� talks� about�
�frequency� foldback� and� soft-start� features.� Please� read�
�both� parts� before� committing� to� a� final� design.�
�Referring� to� Figure� 2,� the� output� voltage� is� determined� by�
�a� voltage� divider� from� V� OUT� to� ground� which� generates�
�1.25V� at� the� FB� pin.� Since� the� output� divider� is� a� load� on� the�
�output� care� must� be� taken� when� choosing� the� resistor�
�divider� values.� For� light� load� applications� the� resistor�
�values� should� be� as� large� as� possible� to� achieve� peak�
�efficiency� in� Burst� Mode� operation.� Extremely� large� values�
�for� resistor� R1� will� cause� an� output� voltage� error� due� to� the�
�1977fa�
�9�
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